EC:3.4.21.37 - FACTA Search

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Query: EC:3.4.21.37 (neutrophil elastase)
4,078 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

On the basis of amino acid sequences inferred from the genes encoding human neutrophil elastase and cathepsin G, it is likely that both are synthesized as precursors containing N- and C-terminal peptide extensions. We show that these extensions are removed about 90 min after onset of synthesis of these proteins in the U937 cell line. Removal of these extensions causes activation of the proteinases, and it is likely that the N-terminal extension of each enzyme serves as a zymogen activation peptide. Elastase and cathepsin G are, therefore, transiently present as zymogens, presumably to protect the biosynthetic machinery of the cell from adventitious proteolysis. Zymogen activation results from cleavage following a glutamic acid residue, a specificity opposite to most other serine proteinase zymogens. The specificity is likely to be shared, however, by neutrophil proteinase 3, rat mast cell proteinase II, and most members of the granzyme group of proteinases present in cytotoxic T-lymphocyte granules. The conservation in zymogen activation specificity between these leukocyte proteinase homologs is mirrored by the preservation of a discrete genomic organization. This suggests that most of the leukocyte serine proteinases evolved from a common ancestor distinct from the main branches of the chymotrypsinogen superfamily of serine proteinases.
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PMID:Zymogen activation specificity and genomic structures of human neutrophil elastase and cathepsin G reveal a new branch of the chymotrypsinogen superfamily of serine proteinases. 180 40

Granzyme F belongs to a closely related family of seven murine serine proteases stored in cytoplasmic granules of lymphoid cell populations. In contrast to the murine granzymes A to E and G, granzyme F is exclusively expressed in the CD4-CD8+ subset of peripheral T cells. To characterize the genomic sequences responsible for its highly restricted expression, we isolated a cosmid clone and sequenced a 7.5-kb genomic fragment that contains the promoter region and all five exons of the murine granzyme F gene. A TATA box sequence is located at position -25 relative to the transcription initiation site, which was determined by RNase protection. The genomic organization of granzyme F is similar to that of granzyme B and granzyme C, leukocyte elastase, cathepsin G, rat mast cell protease II, and complement factor D (adipsin). By the use of two fluorochromes for simultaneous high resolution in situ hybridization, the granzyme F gene was localized in close proximity distally from the TCR alpha-chain locus on mouse chromosome 14.
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PMID:Genomic organization and subchromosomal in situ localization of the murine granzyme F, a serine protease expressed in CD8+ T cells. 186 Oct 68

To investigate the hypothesis that mast cell and neutrophil proteases stimulate airway gland secretion, we studied the effects of two mast cell proteases (tryptase and chymase) and two neutrophil enzymes (human neutrophil elastase and cathepsin G) on secretion of 35S-labeled macro-molecules from cultured bovine airway gland serous cells. Tryptase had no effect, but the other three enzymes stimulated secretion. Threshold concentrations of the enzymes (greater than or equal to 10(-10) M) were lower by two orders of magnitude than other agonists (e.g., histamine, prostaglandins, beta-adrenergic agonists). Only proteases induced maximal secretory response (greater than or equal to 80% depletion of 35S-labeled macromolecules), and these responses were greater than 10-fold larger than those of other agonists. The active catalytic sites of the enzymes are required for their secretory activities. These findings suggest a role for these enzymes in the pathogenesis of inflammatory airway diseases associated with hypersecretion, and they suggest that the use of selective site-directed inhibitors of these enzymes may provide a novel strategy for intervention in inflammatory diseases of the airways associated with hypersecretion (e.g., cystic fibrosis, chronic bronchitis).
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PMID:Role of mast cell and neutrophil proteases in airway secretion. 189 27

We examined the roles of enzymes from mast cells and from neutrophils in stimulating airway submucosal gland secretion. To avoid effects on surface epithelial cells and goblet cells, we studied a line of cultured bovine tracheal gland serous cells. We discovered that mast cell chymase and neutrophil elastase are the most potent secretagogues of airway submucosal glands described. Mast cell chymase markedly stimulated serous cell secretion in a concentration-dependent fashion with a threshold of 10(-10) M, whereas tryptase had no effect. The response to 10(-8) M chymase (1,530 +/- 80% over baseline; mean +/- SEM) was approximately 10-fold higher than that evoked by other agonists such as histamine and isoproterenol. Both neutrophil proteases also stimulated secretion in a concentration-dependent fashion with a threshold of greater than 10(-10) M. Elastase was more potent than cathepsin G, causing a maximal secretory response of 1,810 +/- 60% over baseline at 10(-8) M. Secretion by the 3 proteases was noncytotoxic and required catalytically active enzymes. These findings suggest a potential role for neutrophil and mast cell proteases in the pathogenesis of increased and abnormal submucosal gland secretions in diseases associated with inflammation of the airways.
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PMID:Role of enzymes from inflammatory cells on airway submucosal gland secretion. 192 74

Peptidyl derivatives of diphenyl (alpha-aminoalkyl)phosphonates have been synthesized and are effective and specific inhibitors of serine proteases at low concentrations. Z-PheP(OPh)2 irreversibly reacts with chymotrypsin (kobsd/[I] = 1200 M-1 s-1) and does not react with two elastases. The best inhibitor for most chymotrypsin-like enzymes including bovine chymotrypsin, cathepsin G, and rat mast cell protease II is the tripeptide Suc-Val-Pro-PheP(OPh)2 which corresponds to the sequence of an excellent p-nitroanilide substrate for several chymases. The valine derivative Z-ValP(OPh)2 is specific for elastases and reacts with human leukocyte elastase (HLE, 280 M-1 s-1) but not with chymotrypsin. The tripeptide Boc-Val-Pro-ValP(OPh)2, which has a sequence found in a good trifluoromethyl ketone inhibitor of HLE, is the best inhibitor for HLE (kobsd/[I] = 27,000 M-1 s-1) and porcine pancreatic elastase (PPE, kobsd/[I] = 11,000 M-1 s-1). The rates of inactivation of chymotrypsin by MeO-Suc-Ala-Ala-Pro-PheP(OPh)2 and PPE and HLE by MeO-Suc-Ala-Ala-Pro-ValP(OPh)2 were decreased 2-5-fold in the presence of the corresponding substrate, which demonstrates active site involvement. Only one of two diastereomers of Suc-Val-Pro-PheP(OPh)2 reacts with chymotrypsin (146,000 M-1 s-1), and the enzyme-inhibitor complex had one broad signal at 25.98 ppm in the 31P NMR spectrum corresponding to the Ser-195 phosphonate ester. Phosphonylated serine proteases are extremely stable since the half-time for reactivation was greater than 48 h for the inhibited elastases and 7.5-26 h for chymotrypsin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Irreversible inhibition of serine proteases by peptide derivatives of (alpha-aminoalkyl)phosphonate diphenyl esters. 198 40

We have expressed the 57-amino acid Kunitz domain of the Alzheimer's beta-amyloid precursor protein (APP751) as a bacterial fusion protein. The protease inhibitory properties of the purified fusion protein, BX9, were virtually identical in all respects tested to those of purified secreted APP751. Both proteins strongly inhibited pancreatic trypsin (Kis = 0.2 and 0.3 nM) and less well epidermal growth factor-binding protein (Kis = 1 and 3.5 nM), alpha-chymotrypsin (Kis = 3 and 6 nM), and the gamma-subunit of nerve growth factor (Kis = 8 and 9 M). Neither protein appreciably inhibited plasma and pancreatic kallikreins, thrombin, lung tryptase, neutrophil elastase, or cathepsin G. The remarkable similarity of the protease inhibitory profile of BX9 to that of secreted APP751 suggests that proper intramolecular disulfide bond formation has occurred in the bacterial fusion protein and leads to the conclusion that the amyloid precursor protein Kunitz domain is a relatively specific inhibitor of only a few trypsin-like arginine esterases.
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PMID:The protease inhibitory properties of the Alzheimer's beta-amyloid precursor protein. 211 13

The majority of proteinases exist as zymogens whose activation usually results from a single proteolytic event. Two notable exceptions to this generalization are the serine proteinases neutrophil elastase (HNE) and cathepsin G (cat G), proteolytic enzymes of human neutrophils that are apparently fully active in their storage granules. On the basis of amino acid sequences inferred from the gene and cDNAs encoding these enzymes, it is likely that both are synthesized as precursors containing unusual C-terminal and N-terminal peptide extensions absent from the mature proteins. We have used biosynthetic radiolabeling and radiosequencing techniques to identify the kinetics of activation of both proteinases in the promonocyte-like cell line U937. We find that both N- and C-terminal extensions are removed about 90 min after the onset of synthesis, resulting in the activation of the proteinases. HNE and cat G are, therefore, transiently present as zymogens, presumably to protect the biosynthetic machinery of the cell from adventitious proteolysis. Activation results from cleavage following a glutamic acid residue to give an activation specificity opposite to those of almost all other serine proteinase zymogens, but shared, possibly, by the "granzyme" group of related serine proteinases present in the killer granules of cytotoxic T-lymphocytes and rat mast cell proteinase II.
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PMID:An unusual specificity in the activation of neutrophil serine proteinase zymogens. 238 48

Cathepsin G is a 26,000-Da serine protease that is found in the azurophil granules of neutrophils and monocytes. The cathepsin G gene is expressed at high levels in U937 promonocytic cells, but is down-regulated with phorbol-induced differentiation. To characterize the genomic sequences responsible for the regulated expression of this gene, we screened a human genomic fibroblast library using cathepsin G cDNA, and obtained two lambda clones that contained the cathepsin G locus. The cathepsin G gene spans 2.7 kilobase pairs of genomic DNA and consists of 5 exons and 4 introns. The genomic organization of cathepsin G is similar to that of human neutrophil elastase, rat mast cell protease II, murine adipsin, and murine cytotoxic T-cell serine proteases, with protease catalytic residues located near the borders of exons 2, 3, and 5. Using in situ hybridization techniques, we localized cathepsin G to chromosome 14q11.2, a site that is near the alpha/delta T-cell receptor complex. Cathepsin G transcription is abolished in U937 nuclei with 2 micrograms/ml alpha-amanitin, indicating that this gene is probably transcribed by RNA polymerase II. The 5' end of the cathepsin G gene was defined by primer extension and S1 nuclease protection assays. A TATA box is found at position -29, and a CAAT box is found at -69 with respect to the transcription initiation site. Having defined the genomic structure and chromosomal location of cathepsin G, we are now attempting to identify the DNA elements in or near this gene that mediate its tissue and development-specific pattern of expression.
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PMID:Genomic organization and chromosomal localization of the human cathepsin G gene. 256 62

DNA sequence analysis reveals the gene encoding human neutrophil elastase to be contained on a 6-kb EcoRI fragment. The gene contains five exons and closely resembles rat mast cell proteinase II and mouse adipsin in its exon structure and intron splice phase. Non-coding regions are very rich in repetitive DNA, containing seven Alu-like segments, three distinct clustered direct repeats with monomer lengths of 53 (six repeats), 23 (three repeats) and 41 (ten repeats) nucleotides, and a 200-nucleotide AT-rich region. Protein sequence analysis, inferred from the coding regions of the gene, indicates that neutrophil elastase may contain an unusual activation peptide similar to that found in the other major neutrophil serine proteinase, cathepsin G.
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PMID:The human neutrophil elastase gene. Analysis of the nucleotide sequence reveals three distinct classes of repetitive DNA. 277 93

Human neutrophil cathepsin G from normal donors has been purified 82-fold using an isolation procedure which included sequential sodium chloride extraction, Aprotonin-Sepharose affinity chromatography, CM-cellulose ion-exchange chromatography, and AcA44 gel filtration chromatography. The inclusion of this last purification step was crucial for separating inactive lower molecular weight species from the active forms of neutrophil cathepsin G and resulted in a higher specific activity of the final preparation. SDS polyacrylamide gradient gel electrophoresis of the purified reduced protein demonstrated three discrete polypeptides of Mr 31,000, 30,000, and 29,500. Peptide analysis of tryptic digests indicated that these three polypeptides are structurally related to each other and represent microheterogeneity of the purified protein. The cathepsin G peptide maps were distinctly different from the peptide maps of neutrophil elastase. The apparent isoelectric points of these forms as determined by two-dimensional electrophoresis was approximately 8.0. Utilizing microsequencing techniques, the first 25 residues of normal neutrophil cathepsin G have been determined and shown to be identical (except for residue 11) with the sequence of 21 residues of cathepsin G isolated from leukemic myeloid cells. A high degree of homology was found when the amino-terminal regions of neutrophil cathepsin G, rat mast cell protease II (65%) and two human serine proteinases, factor D (52%) and neutrophil elastase (48%), were compared. A precipitating monospecific antiserum to cathepsin G was produced by repeated immunizations of guinea pigs. This antiserum has been used in immunoblotting experiments to demonstrate that the intracellular form(s) of this enzyme is the same approximate Mr as the purified enzyme, and to develop a solid-phase radioimmunoassay for measuring neutrophil cathepsin G in the range 5-50 ng/ml.
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PMID:Isolation, characterization, and amino-terminal amino acid sequence analysis of human neutrophil cathepsin G from normal donors. 379 65

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